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Krýsuvík (volcanic system)

January 14, 2023

For the shield volcano located in eastern Iceland, see Trölladyngja.

The volcanic system of Krýsuvík (or Krísuvík, both pronounced [ˈkʰriːsʏˌviːk] in Icelandic), also Krýsuvík-Trölladyngja [ˈtʰrœtlaˌtiɲca] volcanic system, is situated in the southwest of Iceland on the Reykjanes peninsula. It is located in the middle of Reykjanes and on the divergent plate boundary of the Mid-Atlantic Ridge which traverses Iceland. It was named after the Krýsuvík area which is part of it and consists of a fissure system without a central volcano.[1]

Seltún geothermal field within Krýsuvík volcanic system
Krýsuvík is the second system on Reykjanes, seen from the west
Gálgahraun (Búrfellshraun) Aa lava, Álftanes
Pahoehoe lava in Kapelluhraun lava field, Hafnarfjörður
Another ropy pahoehoe formation in Kapelluhraun
Óbrinnishólabruni lava field from air
Lava tubes within Kapelluhraun lava field
A fissure in Krýsuvík lavas, Trölladyngja (Reykjanes) behind
Vents and sulfur compounds at Seltún

The volcanic system has a length of 55 km, a width of around 13 km, covers an area of 350 km2, and its highest elevation is 393 m.[1] It is one of 4 (or up to 7, depending on the author) volcanic systems situated within the Reykjanes Volcanic Belt.[2] The volcanic systems are arranged en echelon and in a certain angle (20–45°) to the rift zone of the divergent plate boundary traversing Reykjanes.

General characteristics

The volcanic system of Krýsuvík has no central volcano but "a 50 km long, composite fissure swarm",[3] i.e. a mixture of volcanic and tectonic fissures and faults, of which 30 km are volcanic fissures.[3] There are no known submarine fissures of the system which nevertheless reaches from the south coast in direction SW to NE over the Reykjanes Peninsula. The northernmost fissures are thought to reach Lake Rauðavatn [ˈrœiːðaˌvahtn̥] on the outskirts of Reykjavík. There are no ice-covered volcanoes connected to the Krýsuvík system, but Lake Kleifarvatn lies within the system and geothermal activity is found at the lake bottom.[3]

The Krýsuvík volcanic system has a tendency to effusive basaltic fissure eruptions; the last eruption took place in the 14th century.[4]

Eruptions

The volcanic system is centered on the divergent plate boundary on Reykjanes peninsula. For magma, because of the multitude of tectonic and volcanic faults and fissures in such regions, it is easier there to reach the surface. There have been at least 10 volcanic episodes within the volcanic system in the last 8,000 years. These episodes each comprised many single eruptions and were most probably connected to rifting.[3]

Some Holocene eruptions have been dated specifically, especially the eruption that produced Búrfellshraun (ca. 5290 BP).[4] Since the time of settlement in Iceland, which is thought to have been in the 9th century, more eruptions have taken place within the system, all of them in the Middle Ages.[4]

The Krýsuvík fires were a period of volcanic activity which started in the middle of the 12th century, probably in 1151 and written sources indicate that they ended in 1188. The activity of Pleistocene shield volcanoes such as Þráinskjöldur [ˈθrauːɪnˌscœltʏr̥] and Hrútagjá [ˈr̥uːtaˌcauː], as well as of tuyas like Fagradalsfjall within the volcanic system, is seen as separate from the fissure system, although the bigger volcanoes control parts of the topography.[3]

The Krýsuvík system has a tendency to phreatic explosions, often within rifting episodes and/or eruption series. The underground of Reykjanes peninsula is soaked with water (high groundwater level as well as saline sea water in cave systems). There is especially the prehistoric maar complex around Grænavatn at Krýsuvík which has its origin in such explosions connected to a period of effusive eruptions.[5] There was also the explosion of an old borehole in 1999 at Seltún.[6][7]

Starting on 27 September 2021, an intense earthquake swarm began that was concentrated around the Keilir region with over 1000 earthquakes with a 4.2 on 2 October. The earthquakes sparked concern that a second eruption could begin in the area but it is not known what is really causing the swarm[8] During the overnight hours of 10 October 2021, a strong M3.2 occurring 2km (1.2 miles) SSW of Keilier.[9]

List of lava fields

There are some important lava fields which originated in eruptions of the Krýsuvík volcanic system since the end of the last glacial spell (last 13,000 years).

Búrfellshraun

Around 8.000 years ago, the Búrfell crater near Hafnarfjörður produced a 18 km2 lava field of large volume called Búrfellshraun [ˈpurˌfɛlsˌr̥œiːn].[10] Today, a big part of midtown Hafnarfjörður is built onto and around Búrfellshraun.[10] The crater contains a lava channel called Búrfellsgjá [ˈpurˌfɛlsˌcauː].

Óbrinnishólabruni

The Óbrinnishólabruni [ˈouːˌprɪnːɪsˌhouːlaˌprʏːnɪ] lavas came 2,000 years ago from some craters near Bláfjallavegur [ˈplauːˌfjatlaˌvɛːɣʏr̥] (Road 407) which have since been destroyed by quarrying. The name Óbrinnishólar [ˈouːˌprɪnːɪsˌhouːlar̥] means that there was no “fire” in them during further eruptions in the region in historical time.[10] Parts of Hafnarfjörður (midtown and Vallahverfi [ˈvatlaˌkʰvɛrvɪ]) are located on top of this lava field.[10]

Kapelluhraun

The lavas of Kapelluhraun ([ˈkʰaːpɛtlʏˌr̥œiːn], "chapel lava") from historical time (erupted around 1150)[10] have been given this name because of a medieval chapel whose ruins are still standing on them. A small statue of Saint Barbara was found at the place.[11] The Kapelluhraun lava field consists of pāhoehoe and ʻaʻā lava which streamed from the highland down to the bay of Straumsvík near today’s aluminium smelter and there into the sea.[10] The events were part of a ca. 30 years long unrest period in the late 12th century which is called Krýsuvík Fires. This unrest period included repeated eruption series and rifting episodes and is recorded in Flateyjarbók.[10]

The eruption fissures had a length of 10 km and 6.5 km respectively, and the lava flows cover around 36 km2.[10] Today a golf course[12] is situated in the middle of these lavas, seen when looking from Route 41 between Straumsvík and Hafnarfjörður in direction of Faxaflói.

Landforms

The Seltún [ˈsɛlˌtʰuːn] geothermal area is situated next to Krýsuvík in direction of lake Kleifarvatn (Route 42) and at the foot of Sveifluháls hyaloclastite ridge. It is a geothermal high temperature area,[6] hydrothermal alteration has led to a multicolored environment. Here solfataras, fumaroles, mudpots and hot springs are formed; the soil is coloured bright yellow, red, and green caused by iron oxidation, sulfur and calcite precipitation. The sulfur deposits were mined in 1722–1728 and in the 19th century. German scientist Robert Bunsen visited the site in 1845 and, based on research there, proposed a hypothesis on formation of sulfuric acid in nature.[13]

Also found in the area are the Ögmundarhraun [ˈœɣˌmʏntar̥ˌr̥œiːn] lava field from the 12th century as well as some Pleistocene subglacial mounds and formations like Helgafell, Sveifluháls and Trölladyngja.

Geothermal activity

Some active geothermal high temperature areas are to be found in the system, especially at Seltún. In the last several years,[when?] repeated uplift episodes and earthquake series could be seen, probably connected to igneous intrusions.

 
Wikimedia Commons has media related to Krýsuvík (volcanic system).

See also

External links

General information

  • Krýsuvík at "Catalogue of Icelandic Volcanoes". icelandicvolcanos.is. Retrieved 2021-03-22.
  • "Global Volcanism Program | Krýsuvík-Trölladyngja". Smithsonian Institution | Global Volcanism Program. Retrieved 2021-03-22.

Volcano monitoring

  • Icelandic Met Office (IMO). Earthquake Monitoring. Reykjanes Peninsula
  • IMO. Aviation Color Code
  • Geologist Páll Einarsson explains geology and volcanism of Reykjanes Peninsula as well as the 2020 earthquake series which partially takes place within this volcanic system. RÚV. 20 October 2020. (in Icelandic)

Tourism

  • Seltún. Visit Reykjanes. Official website.

References

  1. ^ a b Thorvaldur Thordarson, Ármann Höskuldsson: Postglacial volcanism in Iceland. Jökull No. 58 (2008). Retrieved 20 August 2020.
  2. ^ [1] Thorvaldur Thordarson and Ármann Höskuldsson: Postglacial volcanism in Iceland, Jökull no. 58, 2008. Retrieved 2 August 2020. (System no. 2 on the maps and tables)
  3. ^ a b c d e Krýsuvík. Catalogue of Icelandic Volcanoes. Retrieved 2 August 2020.
  4. ^ a b c https://volcano.si.edu/volcano.cfm?vn=371030 Krýsuvík. Global Volcanism Program. Smithsonian Institution. Retrieved 2 August 2020.
  5. ^ Thor Thordarson, Armann Hoskuldsson: Iceland. Classic geology of Europe 3. Harpenden 2002, p. 70
  6. ^ a b "17. Seltún - High temperature area with solfataras | Iceland Geosurvey". en.isor.is. Retrieved 22 March 2021.
  7. ^ "Borhola við Seltún spýtti úr sér" [A borehole by Seltún spat out]. mbl.is (in Icelandic). 8 November 2010. Retrieved 22 March 2021.
  8. ^ "Krísuvík volcano (Iceland): intense seismic activity, more than 1000 quakes". volcanodiscovery.com. Retrieved 5 October 2021.
  9. ^ "Home-page - Icelandic Meteorological Office". Icelandic Meteorological office. Retrieved 11 October 2021.
  10. ^ a b c d e f g h Daníel Páll Jónasson: Hraunflæði á höfuðborgarsvæðinu. Saga hraunflæðis á svæðinu á nútíma og kortlagning mögulegra farvega til byggða. BS ritgerð. Leiðbeinandi Ármann Höskuldsson. Líf- og umhverfisvísindadeild Háskóli Íslands 2012 (in Icelandic, abstract also in English). Retrieved 12 August 2020.
  11. ^ Íslandshandbókin. Náttúra, saga og sérkenni. Reykjavík 1989, p. 82
  12. ^ https://www.hole19golf.com/iceland/golfklubburinn-keilir-hvaleyrarvollur Golf club Keilir, Hafnarfjörður. Retrieved 17 August 2020.
  13. ^ "Krýsuvík – Seltún geothermal area". Wondermondo. 14 July 2012.

Coordinates: 63°55′48″N 22°06′00″W / 63.93000°N 22.10000°W / 63.93000; -22.10000

January 14, 2023
krýsuvík, volcanic, system, shield, volcano, located, eastern, iceland, trölladyngja, volcanic, system, krýsuvík, krísuvík, both, pronounced, ˈkʰriːsʏˌviːk, icelandic, also, krýsuvík, trölladyngja, ˈtʰrœtlaˌtiɲca, volcanic, system, situated, southwest, iceland. For the shield volcano located in eastern Iceland see Trolladyngja The volcanic system of Krysuvik or Krisuvik both pronounced ˈkʰriːsʏˌviːk in Icelandic also Krysuvik Trolladyngja ˈtʰrœtlaˌtiɲca volcanic system is situated in the southwest of Iceland on the Reykjanes peninsula It is located in the middle of Reykjanes and on the divergent plate boundary of the Mid Atlantic Ridge which traverses Iceland It was named after the Krysuvik area which is part of it and consists of a fissure system without a central volcano 1 Seltun geothermal field within Krysuvik volcanic system Krysuvik is the second system on Reykjanes seen from the west Burfellsgja lava channel Galgahraun Burfellshraun Aa lava Alftanes Pahoehoe lava in Kapelluhraun lava field Hafnarfjordur Another ropy pahoehoe formation in Kapelluhraun obrinnisholabruni lava field from air Lava tubes within Kapelluhraun lava field A fissure in Krysuvik lavas Trolladyngja Reykjanes behind Volcanic degassing and hydrothermal alteration at Seltun in 2019 Vents and sulfur compounds at Seltun The volcanic system has a length of 55 km a width of around 13 km covers an area of 350 km2 and its highest elevation is 393 m 1 It is one of 4 or up to 7 depending on the author volcanic systems situated within the Reykjanes Volcanic Belt 2 The volcanic systems are arranged en echelon and in a certain angle 20 45 to the rift zone of the divergent plate boundary traversing Reykjanes Contents 1 General characteristics 2 Eruptions 3 List of lava fields 3 1 Burfellshraun 3 2 obrinnisholabruni 3 3 Kapelluhraun 4 Landforms 5 Geothermal activity 6 See also 7 External links 7 1 General information 7 2 Volcano monitoring 7 3 Tourism 8 ReferencesGeneral characteristics EditThe volcanic system of Krysuvik has no central volcano but a 50 km long composite fissure swarm 3 i e a mixture of volcanic and tectonic fissures and faults of which 30 km are volcanic fissures 3 There are no known submarine fissures of the system which nevertheless reaches from the south coast in direction SW to NE over the Reykjanes Peninsula The northernmost fissures are thought to reach Lake Raudavatn ˈrœiːdaˌvahtn on the outskirts of Reykjavik There are no ice covered volcanoes connected to the Krysuvik system but Lake Kleifarvatn lies within the system and geothermal activity is found at the lake bottom 3 The Krysuvik volcanic system has a tendency to effusive basaltic fissure eruptions the last eruption took place in the 14th century 4 Eruptions EditThe volcanic system is centered on the divergent plate boundary on Reykjanes peninsula For magma because of the multitude of tectonic and volcanic faults and fissures in such regions it is easier there to reach the surface There have been at least 10 volcanic episodes within the volcanic system in the last 8 000 years These episodes each comprised many single eruptions and were most probably connected to rifting 3 Some Holocene eruptions have been dated specifically especially the eruption that produced Burfellshraun ca 5290 BP 4 Since the time of settlement in Iceland which is thought to have been in the 9th century more eruptions have taken place within the system all of them in the Middle Ages 4 The Krysuvik fires were a period of volcanic activity which started in the middle of the 12th century probably in 1151 and written sources indicate that they ended in 1188 The activity of Pleistocene shield volcanoes such as THrainskjoldur ˈ8rauːɪnˌscœltʏr and Hrutagja ˈr uːtaˌcauː as well as of tuyas like Fagradalsfjall within the volcanic system is seen as separate from the fissure system although the bigger volcanoes control parts of the topography 3 The Krysuvik system has a tendency to phreatic explosions often within rifting episodes and or eruption series The underground of Reykjanes peninsula is soaked with water high groundwater level as well as saline sea water in cave systems There is especially the prehistoric maar complex around Graenavatn at Krysuvik which has its origin in such explosions connected to a period of effusive eruptions 5 There was also the explosion of an old borehole in 1999 at Seltun 6 7 Starting on 27 September 2021 an intense earthquake swarm began that was concentrated around the Keilir region with over 1000 earthquakes with a 4 2 on 2 October The earthquakes sparked concern that a second eruption could begin in the area but it is not known what is really causing the swarm 8 During the overnight hours of 10 October 2021 a strong M3 2 occurring 2km 1 2 miles SSW of Keilier 9 List of lava fields EditThere are some important lava fields which originated in eruptions of the Krysuvik volcanic system since the end of the last glacial spell last 13 000 years Burfellshraun Edit Around 8 000 years ago the Burfell crater near Hafnarfjordur produced a 18 km2 lava field of large volume called Burfellshraun ˈpurˌfɛlsˌr œiːn 10 Today a big part of midtown Hafnarfjordur is built onto and around Burfellshraun 10 The crater contains a lava channel called Burfellsgja ˈpurˌfɛlsˌcauː obrinnisholabruni Edit The obrinnisholabruni ˈouːˌprɪnːɪsˌhouːlaˌprʏːnɪ lavas came 2 000 years ago from some craters near Blafjallavegur ˈplauːˌfjatlaˌvɛːɣʏr Road 407 which have since been destroyed by quarrying The name obrinnisholar ˈouːˌprɪnːɪsˌhouːlar means that there was no fire in them during further eruptions in the region in historical time 10 Parts of Hafnarfjordur midtown and Vallahverfi ˈvatlaˌkʰvɛrvɪ are located on top of this lava field 10 Kapelluhraun Edit The lavas of Kapelluhraun ˈkʰaːpɛtlʏˌr œiːn chapel lava from historical time erupted around 1150 10 have been given this name because of a medieval chapel whose ruins are still standing on them A small statue of Saint Barbara was found at the place 11 The Kapelluhraun lava field consists of pahoehoe and ʻaʻa lava which streamed from the highland down to the bay of Straumsvik near today s aluminium smelter and there into the sea 10 The events were part of a ca 30 years long unrest period in the late 12th century which is called Krysuvik Fires This unrest period included repeated eruption series and rifting episodes and is recorded in Flateyjarbok 10 The eruption fissures had a length of 10 km and 6 5 km respectively and the lava flows cover around 36 km2 10 Today a golf course 12 is situated in the middle of these lavas seen when looking from Route 41 between Straumsvik and Hafnarfjordur in direction of Faxafloi Landforms EditThe Seltun ˈsɛlˌtʰuːn geothermal area is situated next to Krysuvik in direction of lake Kleifarvatn Route 42 and at the foot of Sveifluhals hyaloclastite ridge It is a geothermal high temperature area 6 hydrothermal alteration has led to a multicolored environment Here solfataras fumaroles mudpots and hot springs are formed the soil is coloured bright yellow red and green caused by iron oxidation sulfur and calcite precipitation The sulfur deposits were mined in 1722 1728 and in the 19th century German scientist Robert Bunsen visited the site in 1845 and based on research there proposed a hypothesis on formation of sulfuric acid in nature 13 Also found in the area are the Ogmundarhraun ˈœɣˌmʏntar ˌr œiːn lava field from the 12th century as well as some Pleistocene subglacial mounds and formations like Helgafell Sveifluhals and Trolladyngja Geothermal activity EditSome active geothermal high temperature areas are to be found in the system especially at Seltun In the last several years when repeated uplift episodes and earthquake series could be seen probably connected to igneous intrusions Wikimedia Commons has media related to Krysuvik volcanic system See also EditBrennisteinsfjoll volcanic systemExternal links EditGeneral information Edit Krysuvik at Catalogue of Icelandic Volcanoes icelandicvolcanos is Retrieved 2021 03 22 Global Volcanism Program Krysuvik Trolladyngja Smithsonian Institution Global Volcanism Program Retrieved 2021 03 22 Volcano monitoring Edit Icelandic Met Office IMO Earthquake Monitoring Reykjanes Peninsula IMO Aviation Color Code Geologist Pall Einarsson explains geology and volcanism of Reykjanes Peninsula as well as the 2020 earthquake series which partially takes place within this volcanic system RUV 20 October 2020 in Icelandic Tourism Edit Seltun Visit Reykjanes Official website References Edit a b Thorvaldur Thordarson Armann Hoskuldsson Postglacial volcanism in Iceland Jokull No 58 2008 Retrieved 20 August 2020 1 Thorvaldur Thordarson and Armann Hoskuldsson Postglacial volcanism in Iceland Jokull no 58 2008 Retrieved 2 August 2020 System no 2 on the maps and tables a b c d e Krysuvik Catalogue of Icelandic Volcanoes Retrieved 2 August 2020 a b c https volcano si edu volcano cfm vn 371030 Krysuvik Global Volcanism Program Smithsonian Institution Retrieved 2 August 2020 Thor Thordarson Armann Hoskuldsson Iceland Classic geology of Europe 3 Harpenden 2002 p 70 a b 17 Seltun High temperature area with solfataras Iceland Geosurvey en isor is Retrieved 22 March 2021 Borhola vid Seltun spytti ur ser A borehole by Seltun spat out mbl is in Icelandic 8 November 2010 Retrieved 22 March 2021 Krisuvik volcano Iceland intense seismic activity more than 1000 quakes volcanodiscovery com Retrieved 5 October 2021 Home page Icelandic Meteorological Office Icelandic Meteorological office Retrieved 11 October 2021 a b c d e f g h Daniel Pall Jonasson Hraunflaedi a hofudborgarsvaedinu Saga hraunflaedis a svaedinu a nutima og kortlagning mogulegra farvega til byggda BS ritgerd Leidbeinandi Armann Hoskuldsson Lif og umhverfisvisindadeild Haskoli Islands 2012 in Icelandic abstract also in English Retrieved 12 August 2020 Islandshandbokin Nattura saga og serkenni Reykjavik 1989 p 82 https www hole19golf com iceland golfklubburinn keilir hvaleyrarvollur Golf club Keilir Hafnarfjordur Retrieved 17 August 2020 Krysuvik Seltun geothermal area Wondermondo 14 July 2012 Coordinates 63 55 48 N 22 06 00 W 63 93000 N 22 10000 W 63 93000 22 10000 Retrieved from https en wikipedia org w index php title Krysuvik volcanic system amp oldid 1120551919, wikipedia, wiki, book, books, library,

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